DE2928162C2 - Material feeding device for a mechanical or pneumatic steep conveyor - Google Patents

Description

is based on a material feed device of the type mentioned at the beginning Kind of further training so that an improvement in terms of the delivery rate as well as in terms of achieved by the clearing tool receiving surface during the removal of the goods and at the same time a very good accessibility of the crop pick-up tool is guaranteed. This is according to the invention in a Device according to the preamble of claim 1 achieved in that the boom as a hollow cylinder is designed, the outer shell serves as a support for the crop receiving tool that the conveyor inside the boom is a conveyor belt and that a crop pick-up tool is free from the outside its entire circumference accessible vane drum is provided, the jacket over its entire length is studded with shovels

Due to the design according to the invention, the crop is picked up over the entire length of the boom, wherein the cutting length of the pick-up tool is increased to the entire boom length, so that per Time unit a considerably larger amount of material can be picked up and fed to the inclined conveyor than with conventional material feed devices. Furthermore, in the immediate vicinity of the steep conveyor support frame A crop can also be picked up, which means that the clearing tool does not have to move sideways the steep conveyor support frame inaccessible areas between the latter and him reduced to a minimum are. Overall, this results in a substantial improvement in the efficiency of the material taking up due to the optimal cut surface, high cut shape and loss-free delivery of the picked up goods and thus a considerable increase in the delivery rate. Furthermore, a maximum of Clearing tool of the loading area as well as a reduction in the work movements of the steep conveyor support structure and restricting the working movements essentially to the boom or that of it Worn Gutaufnahmewerkzeug achieved.

In an advantageous embodiment of the invention it is provided that the boom is vertical to the supporting structure is arranged pivotably.

Another advantageous embodiment of the invention is that the boom is a one-piece Hollow cylinder with a continuous material passage opening, or, equally preferably, that it consists of several interconnected hollow cylinder sections, each of which has a material passage opening has, for example, if the device is to be manufactured in a modular system to be in a simple Way to be able to create devices of different lengths. If the boom itself directly forms the Conveying surface on which the material is moved along, it is advisable to use the hollow cylinder or the hollow cylinder sections double-walled, d. H. to train with inner tube and outer tube: this has the advantage that with The entire boom does not wear, but only the inner tube has to be replaced.

In a further advantageous embodiment of the invention, the vane drum is made up of several axial ones Composite drum sections, each of which with a plurality distributed over its circumference Is equipped with shovels. The drum sections are preferably rotatable on the boom stored and consist of annular disks and blades attached to these disks. Through this a structurally simple construction can be achieved, especially of a mass.

In order to ensure that the goods are picked up and released gradually, and thus jerky loads Avoiding or relieving the pressure on the paddle drum are a further advantageous embodiment of the invention the blades of a drum section opposite the blades of the adjacent drum section arranged offset in the circumferential direction. Furthermore, the drum sections are preferably with Driven in different directions of rotation: by rotating each of them in opposite directions Bucket drum sections, it is possible to reduce the moments acting on the latter.

Another advantageous embodiment of the invention is that in an inventive Gutzuführeineinrichtung the conveyor belt inside the boom as an endless box or cell belt is designed that at the same time forms the steep conveyor

The invention is explained below with reference to the exemplary embodiment shown in the drawings explained in more detail It shows

F i g. 1 shows a central longitudinal section through an embodiment of a material feed device according to the invention, as well as
F i g. 2 shows a cross section along line IV-IV in FIG. 1 on an enlarged scale.

The in the F i g. 1 and 2 shown material supply device comprises three essential assemblies, namely a boom 101, a bucket drum 102 rotatably mounted on this and one inside the Cantilever 101 attached conveyor in the form of a cell belt 103, which at the same time forms the steep conveyor The boom 101 consists of a one-piece hollow cylinder 104 with one of a grating 110 covered, over almost its entire length extending material passage opening 109 and from one bearing part 111 firmly connected to hollow cylinder 104 by screws 119. Two on the side of bearing part 111 provided joint attachments 112 plug into two correspondingly arranged joint attachments 113 one Support frame 114 and are connected to these by axles 116 articulated. The support frame 114 takes the vertical section of the cell belt 103, which is the actual Inclined conveyor embodies. In the vertical section of the cell belt 103 is its conveying strand 103a is assigned a shroud 115 which is guided over a belt drum 170 arranged in the support frame 114 and the cells 171 of the cell belt 103 closes off against emptying. For holding and swiveling in position of the boom 101 in the vertical plane are two cylinder-piston systems, the cylinders 117 are articulated to the support frame 114 and the piston rods 118 of which are connected to the bearing part 111

The empty strand 1036 of the cell belt 103 runs from the upper, invisible deflection station down to a group of guide rollers 174 on one side of an internally movable roller holder 172 and from here via a guide roller 179 in the bearing part 111 and via a row of sliding plates 178 in the hollow cylinder 104 a deflecting drum 177 arranged in the front end of the hollow cylinder 104. The conveyor strand 103a of the cell belt 103 runs from the deflecting drum 177 via a row of support rollers 176 in the hollow cylinder 104, further via a guide roller 175 in the bearing part 111 and via a ^p ine group of guide rollers 173 on the other side the roll holder 172 up to said deflection station. The roller holder 172 is suspended in the support frame 114 and consists of articulated links 180, each laterally

take up two bearings 181 , in each of which a guide roller 173 or 174 is mounted with the help of their bearing journals. The sliding plates 178 are attached in the longitudinal direction of the cell belt 103 at a distance from one another on two step-shaped platforms 182 which are welded on opposite one another transversely axially in the hollow cylinder 104 (FIG. 2). The deflection drum 177 is rotatably mounted on an axle 183 , which is received by two bearings, not shown, supported in the hollow cylinder 104 . The support rollers 176 are each rotatably mounted in two bearings 184 , which are attached to two stepped pedestals 185 fixed on the hollow cylinder 104. The cell belt 103 is driven in the upper deflection station by a known electromotive belt drum drive.

The Sehaufeiirommei 102 comprises three directly adjacent drum sections 186, 187, 188 driven in the same direction, which are connected to form a compact unit. The drum section 186 consists of an annular disk 189 and an annular disk 190 common to the drum section 187 , as well as blades 191 fixedly but releasably connected to the disks 189 and 190 by screws 192. The drum section 187 is composed of the one with the drum section 186 common disc 190, an annular disc 193 common to the drum portion 188 and blades 194 connected to the discs 190 and 193 by screws 192. The drum portion 188 consists of the disc 193 common to the drum portion 187 , an annular disc 195 and with The blades 196 connected to the disks 193 and 195 by screws 192. The blades 191 or 194 or 196 of each drum section 186 or 187 or 188, which are provided with a toothed cutting edge 197 , are equidistant from one another around the circumference of the assigned disks 189, 190, 193 , 195 arranged The blades 191 or 194 or 196 of a drum section are offset in the circumferential direction with respect to the blades of the adjacent drum section (FIG. 2). For the rolling support of the drum sections 186, 187, 188 on the hollow cylinder 104 , several rollers are attached to their disks 189, 190, 193 , namely five rollers 199 mounted on the disk 189 in roller holders 198 , equidistantly positioned on the circumference, on axles 200 , on the disk 190 five rollers 202 attached to it, evenly distributed around the circumference, mounted on roller holders 201 on axles 200 and on the disk 193 five rollers 204 mounted on axles 200 in roller holders 203 fixed to it, equidistantly spaced on the circumference 295 of the drum section 188 is the one bearing ring 206 provided with a toothing 207 of a rotary ball joint 205 fastened by means of screws 209. The other bearing ring 208 of the rotary ball joint 205 is firmly connected to the bearing part 111 by screws 210 . A cover plate 211 attached to the bearing part 111 seals the spherical rotary joint 205 or its toothing 207 towards the bottom against the material. So that the supporting effect of the rollers 202 and 204 is not interrupted during their movement over the passage opening 109 , the grating 110 is supported in the area of the track of the rollers 202 by an annular web 212 and in the area of the track of the rollers 204 by an annular web 213 wherein the webs 212 and 213 are welded to the grating 110 and to the hollow cylinder 104. For the rotary movement of the vane drum 102 , two geared motors 214 are arranged above in the bearing part 111 , which they jointly drive via a pinion 216 which is rotatably mounted on its output shaft 315 and which engages with the toothing 207 of the bearing ring 206 of the rotary ball joint 205.

At the front end of the shovel drum 102 is a frustoconical head piece 217 with several clearing plates 218 distributed over its circumference, which is held by the screws 192 and aims to facilitate frontal penetration of the device into the material or a pile of material.

The mode of operation of the device according to FIGS. 1 and 2 result as follows: During operation, the cell belt 103 and the shroud 115 assigned to it rotate continuously. After the device has been brought into the working position by moving the support frame 114 and rotating the boom 101 in the horizontal plane and pivoting it in the vertical plane, the two gear motors 214 are actuated and the device is moved further into the material. The geared motors 214 drive the bucket drum 102 via their output shafts 215 and pinion 216 and via the toothing 207 of the bearing ring 206 of the rotary ball joint 205 in the direction of rotation according to arrow 219 (FIG. 2). The blades 191, 194, 196 of the three drum sections 186 , 187, 188 penetrate the material with the help of their toothed cutting edge 197 , scoop it up and take it upwards as they rotate until it passes through the grating 110 and the material passage opening 109 into the interior as a result of gravity of the hollow cylinder 104 and in the cells 171 of the conveying run 103a of the cell tape 103 falls the here simultaneously as a vertical conveyor functioning cells belt 103 transports the material in the direction of arrow 220 (Fig. 1) out of the jib 101 and of the hollow cylinder shot 104 out, and then with support of the shroud 1 15 upwardly to said deflection or transfer station, continued from which the cell band, for example, in the horizontal direction and / or the material to a downstream conveyor or its destination is passed.

With the material feed device shown, a comparatively high conveying capacity is achieved because here practically the entire length of the arm IGl is used for material picking up and the material is picked up by the shovel drum 102 at high speed with its continuously rotating shovels and brought to the inclined conveyor without loss.

For this purpose 2 sheets of drawings

Claims (10)

1 2 ρ - h · ^ 'e finding relates to a Gutzuführeinrich- Katentanspruc e. device ^ a mechanical or pneumatic steep 1. Gutzuführeineinrichtung for a mechanical conveyor with a down on the support frame of the steep conveyor or pneumatic steep conveyor with a rers mounted boom, which has a rotating Gutaufon the support frame (104) of the vertical conveyor mounted 5 picking tool, which picks up the good boom (101), which has a rotating Material receiving and a conveyor arranged in it, wowerkzeug (102) which receives the material in the boom at least one substantially and a conveyor (103) arranged in it to the length of the goods receiving tool, with in the boom (101 ) at least one material is provided in the material passage opening for the overhead line of the material received by the material material of the length of the material receiving tool to the inges (102) corresponding material passage opening (109) lying conveyor. to reconcile Such from Gutaufnahmewerkzeug devices have the task of the off (102) material at the inner zufördernde Good taken to solve the pile it up and conveyor (103) is provided, characterized bring charged and handed over to the vertical conveyor or denotes to transport 15 into its action area, whereby the that the boom (101) designed as a hollow cylinder (104) is a suction conveyor tube, a bucket or chain, the outer jacket of which is used as a support for the tenelevator or a conveyor belt combination, such as a material receiving tool ( 102) is made of a box or cell belt and cover belt or that the conveyor (103) inside the boom consists of belt belt and clamping belt
(101) is a conveyor belt, 20 From DE-OS 22 10 311 it is known to pivot on the steep and that as a crop receiving tool a free of conveyor in the form of a bucket elevator below a viewing vertical plane accessible on the outside on its entire circumference Boom, the drum (102) is provided, the jacket of which can be made variable in length, to provide its entire length with shovels (191, 194, 196) and to this a rotating scraper chain as well-occupied 25 is to be attached to the pick-up tool, the scraper plates 2. Gutzuführeineinrichtung according to claim 1, that detach the good and it via a base plate or in characterized in that the boom (101) vertically a trough to the bucket elevator and in its Bekal to the supporting frame (114) rather transport arranged pivotable . net is from DE-AS 25 28 483 is still a device 3. Gutzuführeinrichtung according to claim 1 or 2, 30 device known, in which the lower, flexible end, characterized in that the boom (101) one of a suction conveyor tube with a wide suction nozzle unified hollow cylinder (104) with a go through and see on a crawler track is placed, whereby the crop passage opening (109) is an auger directly in front of the suction nozzle. 4. Gutzuführeinrichtung according to claim 1 or 2, is arranged, which is characterized by a horizontal axis, characterized in that the boom of several 35 pivotable, mounted on the crawler chassis reren interconnected hollow cylinder shots support arms is received and replaced by it, whose each one feeds a material passage opening or loosened material to the suction nozzle
having. To unload ships is still from the DE 5. Gutzuführeinrichtung according to one of claims -AS 15 06 997 already known a device in which a before 1 to 4, characterized in that the hollow 40 lost by the receiving tool cylinder or the hollow cylinder sections of double-walled goods are avoided is or are. set up the inclined conveyor below a tubular discharge 6. Gutzuführeinrichtung according to one of the claimants, at the free end of the front face a blade 1 to 5, characterized in that the impeller is arranged as a crop pick-up tool and the felling drum (102) consists of several axial drum ab- 45 in its interior The cranked section of the inclined conveyor formed by two conveyor belts is composed of cut (186, 187, 188) on which each takes a plurality of blades (191,194,196) distributed over its circumference, the material picked up by the blade wheel being equipped. via a chute located inside it to the 7. Gutzuführeinrichtung according to claim 6, there up under the chute guided a conveyor belt is characterized in that the drum sections 50 and from this end face into the boom and (186, 187, 188) rotatably on the boom between the conveyor strands of the two conveyor belts des (101) are stored and inclined conveyor is moved from annular disks. Furthermore, at the bottom of the extension (189, 190, 193, 195) and casually attached to it, there is a clearing shovel in the area between shovel-shovels (191, 194, 1%). wheel and the center of the vertical support frame are provided, which 8. Gutzuführeinrichtung according to claim 7, there- 55 Gut detected and when rotating the supporting frame in the characterized in that the blades (194) pushes an area of action of the paddle wheel, so that there is drum section (187) opposite the blades from there taken up by this can.
(191, 196) of the adjacent drum section A material feed device of the type (186, 188) mentioned at the beginning are offset in the circumferential direction. Art is finally described in GB-PS 5 60 751, 9. Gutzuführeinrichtung according to claim 6, da- 60 wherein the rotating Gutaufnahmewerkzeug is characterized within that the drum sections of a fixed housing is arranged. The material can be driven through openings in the bottom of the housing (186, 187, 188) with different directions of rotation. Lowering of the boom onto the goods in the housing 10. Gutzuführeineinrichtung penetrate according to one of claims, where it is then from the Gutaufnahmeche 1 to 9, characterized in that the conveying tool 65 detects, within the housing upward band as a cell band (103, 171) is designed and to- transported and there through the material passage opening immediately forms the steep conveyor. is fed to the internal screw conveyor. Based on this, the object of the invention is